Asma I. Swapna


MSc Student


CV Lattes

Short Bio

Asma is an MSc. candidate in the School of Electrical and Computer Engineering at University of Campinas (UNICAMP). She is a member of Information Networking Technologies Research & Innovation Group (INTRIG) at UNICAMP where she works under the supervision of Professor Christian Esteve Rothenberg. Asma received a Bachelor of Engineering degree in Information and Communication Technology from MBSTU, Bangladesh in 2017. She co-authored over 10 conference and journal papers during her Bachelor thesis. She acted as a TPC for a handful of IEEE conferences and presently she is performing as Editorial Board Member (EBM) for distinctive journals worldwide, publishing research works on future network technologies.

At INTRIG, Asma is involved in studying network slicing activities under NECOS project.

Research Interests

Asma is broadly interested in computer systems and networks. Her prime research fields hence fall around-

  • Network Orchestration
  • Software Defined Networking
  • Network Functions Virtualization
  • Cloud Computing
  • Network Slicing


Authors: Type:


  • [PDF] A. I. Swapna, R. V. Rosa, C. E. Rothenberg, R. Pasquini, and J. Baliosian, “Policy controlled multi-domain cloud-network slice orchestration strategy based on reinforcement learning,” in 2020 ieee conference on network function virtualization and software defined networks (nfv-sdn), 2020, p. 167–173.
    title={Policy Controlled Multi-domain cloud-network Slice Orchestration Strategy based on Reinforcement Learning},
    author={Swapna, Asma Islam and Rosa, Raphael Vicente and Rothenberg, Christian Esteve and Pasquini, Rafael and Baliosian, Javier},
    booktitle={2020 IEEE Conference on Network Function Virtualization and Software Defined Networks (NFV-SDN)},


  • [PDF] [DOI] A. I. Swapna, R. V. Rosa, C. E. Rothenberg, I. Sakellariou, L. Mamatas, and P. Papadimitriou, “Towards a marketplace for multi-domain cloud network slicing: use cases,” in 2019 acm/ieee symposium on architectures for networking and communications systems (ancs), 2019, pp. 1-4.
    author = {Swapna, Asma Islam and Rosa, Raphael Vicente and Rothenberg, Christian Esteve and Sakellariou, Ilias and Mamatas, Lefteris and Papadimitriou, Panagiotis},
    booktitle={2019 ACM/IEEE Symposium on Architectures for Networking and Communications Systems (ANCS)},
    title={Towards A Marketplace for Multi-domain Cloud Network Slicing: Use Cases},
    keywords={Cloud Network Slicing;Slice-as-a-Service;Marketplace;Multi-domain Network Slicing},
  • [PDF] [DOI] P. D. Maciel, F. L. Verdi, P. Valsamas, I. Sakellariou, L. Mamatas, S. Petridou, P. Papadimitriou, D. Moura, A. I. Swapna, B. Pinheiro, and S. Clayman, “A marketplace-based approach to cloud network slice composition across multiple domains,” in 2019 ieee conference on network softwarization (netsoft), 2019, pp. 480-488.
    author={P. D. {Maciel} and F. L. {Verdi} and P. {Valsamas} and I. {Sakellariou} and L. {Mamatas} and S. {Petridou} and P. {Papadimitriou} and D. {Moura} and A. I. {Swapna} and B. {Pinheiro} and S. {Clayman}},
    booktitle={2019 IEEE Conference on Network Softwarization (NetSoft)},
    title={A Marketplace-based Approach to Cloud Network Slice Composition Across Multiple Domains},
    keywords={cloud computing;marketing data processing;slice-as-a-service model;dynamic slice resource discovery;marketplace-based approach;end-to-end slices;dynamic creation;NECOS platform;NECOS project;network resources;on-demand networking abstractions;cloud network slicing;slice owner;Cloud computing;5G mobile communication;Network slicing;Dynamic scheduling;Monitoring;Computer architecture;Industries;Cloud Network Slicing;Slice-as-a-Service;Slice Resource Discovery;Marketplace},


Prior to INTRIG
 [1] A. I. Swapna and N. Islam, “Security analysis of IEEE 802.21 standard in Software Defined Wireless Networking,” in 20th International Conference of Computer and Information Technology (ICCIT), 2017. IEEE, 2017, pp. 1–5.
[2] A. I. Swapna, M. R. H. Reza, and M. K. Aion, “Security analysis of Software Defined Wireless Network monitoring with sFlow and Flowvisor,” in International Conference on Communication and Electronics Systems (ICCES). IEEE, 2016, pp. 1–7.
[3] A. I. Swapna, Z. Rahman, M. H. Rahman, and M. Akramuzzaman, “Performance evaluation of fuzzy integrated firewall model for hybrid cloud based on packet utilization,” in IEEE International Conference on Computer Communication and the Internet (ICCCI). IEEE, 2016, pp. 253–256. 1 of 3
[4] A. I. Swapna, M. R. Huda, and M. K. Aion, “Comparative security analysis of Software Defined Wireless Networking (SDWN) – BGP and NETCONF protocols,” in 19th International Conference on Computer and Information Technology (ICCIT), 2016. IEEE, 2016, pp. 282–287.
[5] N. Islam, C. C. Bawn, J. Hasan, A. I. Swapna, and M. S. Rahman, “Quality of service analysis of ethernet network based on packet size,” Journal of Computer and Communications, vol. 4, no. 04, p. 63, 2016.
[6] N. Islam, M. J. H. Biddut, A. I. Swapna, and M. M. Rahman, “An analytical study to minimize load of ZigBee network based on statistical modeling,” in IEEE International WIE Conference on.Electrical and Computer Engineering (WIECON-ECE), IEEE, 2015, pp. 139–142.
[7] N. Islam, M. J. H. Biddut, A. I. Swapna, and S. Asaduzzaman, “Improved quality of service in ZigBee network with statistical modeling,” in International Conference on Advances in Electrical Engineering (ICAEE), 2015. IEEE, 2015, pp. 174–177.
[8] N. Islam, M. J. H. Biddut, A. I. Swapna, and M. H. R. Jany, “A study on priority based ZigBee network performance analysis with tree routing method,” Journal of Computer and Communications , vol. 3, no. 08, p. 1, 2015.
[9] J. H. Biddut, N. Islam, M. H. R. Jany, and A. I. Swapna, “Performance analysis of large scale ZigBee network design through geometric structure,” in 2nd International Conference on Electrical Information and Communication Technology (EICT), 2015 . IEEE, 2015, pp. 263–268.